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835 lines
31 KiB
835 lines
31 KiB
import copy
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from typing import Dict, List, Tuple
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from torch.fx.node import Node
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from .utils import NodeMgr, find_first_tensor_arg, flat_list, get_module_node_name, get_node_name, get_node_shape
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class TraceIndice(object):
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"""
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Trace all indice infomation for every node.
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Indice is a logical concept. Equal dims can been treated as one indice.
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eg. dim(x1) = [a, b, c]
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dim(x2) = [d, e, f]
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and we have x3 = x1 * x2.
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then a=d, b=e, c=f, due to the broadcast property,
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dim(x1)=dim(x2)=dim(x3)=[a, b, c]
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This class will record every node's dims' indice, compute and source.
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Attibutes:
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node_list (List)
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indice_trace_list (List): [{"indice": [...], "compute": [...], "source": [...]}, {...}]
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indice_view_list (Dict): not used for now
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indice_count (int): record indice number
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Args:
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node_list (List)
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"""
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def __init__(self, node_mgr: NodeMgr) -> None:
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self.node_mgr = node_mgr
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self.indice_trace_list = self._init_indice_trace_list()
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self.indice_view_list = {}
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self.indice_count = -1
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self.trace_range = []
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self.active_node_list = []
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def _init_indice_trace_list(self) -> List:
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indice_trace_list = []
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for n in self.node_mgr.get_node_list():
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if get_node_shape(n) != None:
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cur_trace = {
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"indice": [None for _ in range(len(get_node_shape(n)))],
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"compute": [[] for _ in range(len(get_node_shape(n)))],
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"source": [{} for _ in range(len(get_node_shape(n)))],
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}
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else:
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cur_trace = {"indice": [], "compute": [], "source": []}
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indice_trace_list.append(cur_trace)
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return indice_trace_list
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def set_trace_range(self, trace_range: List, active_node_list: List) -> None:
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self.trace_range = trace_range
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self.active_node_list = active_node_list
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def _add_indice(self) -> int:
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"""
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Update the count and return it. To record the idx number.
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Returns:
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indice_count: int
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"""
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self.indice_count += 1
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return self.indice_count
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def _del_dim(self, idx: int, dim_idx: int) -> None:
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"""
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delete a dim for indice, compute and source
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"""
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self.indice_trace_list[idx]["indice"].pop(dim_idx)
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self.indice_trace_list[idx]["compute"].pop(dim_idx)
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self.indice_trace_list[idx]["source"].pop(dim_idx)
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def _add_dim(self, node_idx: int, dim_idx: int) -> None:
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"""
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add a dim for indice, compute and source
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"""
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self.indice_trace_list[node_idx]["indice"].insert(dim_idx, self._add_indice())
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self.indice_trace_list[node_idx]["compute"].insert(dim_idx, [])
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self.indice_trace_list[node_idx]["source"].insert(dim_idx, {})
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def _add_source(
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self,
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node_from: Node,
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node_from_dim: int,
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node_to: Node,
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node_to_dim: int,
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init=False,
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) -> None:
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node_from_dim = self._transform_indice(node_from, node_from_dim)
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node_from_trace_source = self._find_source_trace_from_node(node_from)
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node_to_dim = self._transform_indice(node_to, node_to_dim)
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node_to_trace_source = self._find_source_trace_from_node(node_to)
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node_from_idx = self.node_mgr.find_node_idx(node_from)
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if init:
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node_to_trace_source[node_to_dim] = {}
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# add dim to cur new source
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if node_from_idx not in node_to_trace_source[node_to_dim]:
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node_to_trace_source[node_to_dim][node_from_idx] = [node_from_dim]
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else:
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if node_from_dim not in node_to_trace_source[node_to_dim][node_from_idx]:
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node_to_trace_source[node_to_dim][node_from_idx].append(node_from_dim)
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# update inputs source
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for node_idx, node_dim in node_from_trace_source[node_from_dim].items():
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if node_idx not in node_to_trace_source[node_to_dim]:
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node_to_trace_source[node_to_dim][node_idx] = copy.deepcopy(node_dim)
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else:
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for d in node_dim:
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if d not in node_to_trace_source[node_to_dim][node_idx]:
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node_to_trace_source[node_to_dim][node_idx].append(d)
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def _transform_indice(self, node: Node, node_dim: int) -> int:
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node_idx = self._find_indice_trace_from_node(node)
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dims = list(range(len(node_idx)))
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return dims[node_dim]
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def _inherit_indice(
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self,
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node_from: Node,
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node_from_dim: int,
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node_to: Node,
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node_to_dim: int,
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init: bool = True,
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) -> None:
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"""
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node_to's node_to_dim inherit node_from's node_from_dim by indice, compute and source
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"""
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node_from_dim = self._transform_indice(node_from, node_from_dim)
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node_to_dim = self._transform_indice(node_to, node_to_dim)
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node_from_trace = self._find_trace_from_node(node_from)
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node_to_trace = self._find_trace_from_node(node_to)
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if init:
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node_to_trace["indice"][node_to_dim] = node_from_trace["indice"][node_from_dim]
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node_to_trace["compute"][node_to_dim] = copy.deepcopy(node_from_trace["compute"][node_from_dim])
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else:
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for j in node_from_trace["compute"][node_from_dim]:
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if j not in node_to_trace["compute"][node_to_dim]:
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node_to_trace["compute"][node_to_dim].append(j)
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self._add_source(node_from, node_from_dim, node_to, node_to_dim, init)
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def _inherit_all_indice(self, node_from: Node, node_to: Node) -> None:
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"""
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inherit all dims with init
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"""
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# find indice just for assert length
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node_from_indice = self._find_indice_trace_from_node(node_from)
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node_to_indice = self._find_indice_trace_from_node(node_to)
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assert len(node_from_indice) == len(node_to_indice)
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for i in range(len(node_from_indice)):
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self._inherit_indice(node_from, i, node_to, i, init=True)
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def _inherit_more_indice_from_node(self, node_from: Node, node_to: Node, exclude: List = None) -> None:
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"""
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inheirt indice from node without init
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"""
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if exclude == None:
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exclude = []
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else:
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exclude = [self._transform_indice(node_to, i) for i in exclude]
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node_from_compute = self._find_compute_trace_from_node(node_from)
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node_to_compute = self._find_compute_trace_from_node(node_to)
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# assert len(node_from_compute) == len(node_to_compute)
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for i in range(-1, -min(len(node_from_compute), len(node_to_compute)) - 1, -1):
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if self._transform_indice(node_to, i) in exclude:
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continue
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self._inherit_indice(node_from, i, node_to, i, init=False)
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def _mark_computation(self, node: Node, idx: int, dim: int) -> None:
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"""
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Mark some dims of node as computed.
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Args:
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node (node)
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idx (int): node index
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dim (list or int): dims to be marked as computed
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"""
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if isinstance(dim, int):
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dim = [dim]
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dims = list(range(len(get_node_shape(node))))
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for d in dim:
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cur_dim = dims[d]
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if idx not in self.indice_trace_list[idx]["compute"][cur_dim]:
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self.indice_trace_list[idx]["compute"][cur_dim].append(idx)
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def _find_trace_from_node(self, node: Node) -> Dict:
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"""
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Find node idx and compute trace by the node.
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Args:
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node (node)
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Returns:
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idx (list): idx of the node
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compute (list): computed idx of the node.
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"""
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node_idx = self.node_mgr.find_node_idx(node)
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node_dict = self.indice_trace_list[node_idx]
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return node_dict
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def _find_source_trace_from_node(self, node: Node) -> List:
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"""
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Find node source trace by the node.
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Args:
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node (node)
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Returns:
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idx (list): idx of the node
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compute (list): computed idx of the node.
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"""
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node_idx = self.node_mgr.find_node_idx(node)
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node_dict = self.indice_trace_list[node_idx]
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return node_dict["source"]
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def _find_indice_trace_from_node(self, node) -> List:
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"""
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Find node idx trace by the node.
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Args:
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node (node)
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Returns:
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idx (list): idx of the node
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"""
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node_idx = self.node_mgr.find_node_idx(node)
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return self.indice_trace_list[node_idx]["indice"]
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def _find_compute_trace_from_node(self, node: Node) -> List:
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"""
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Find node compute trace by the node.
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Args:
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node (node)
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Returns:
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compute (list): computed idx of the node.
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"""
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node_idx = self.node_mgr.find_node_idx(node)
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return self.indice_trace_list[node_idx]["compute"]
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def _assign_indice_as_input(self, node: Node, node_idx: int, input_node=None) -> None:
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"""
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Assign node's trace as its input node.
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Args:
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node (node)
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node_idx (int)
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"""
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if input_node == None:
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input_node = find_first_tensor_arg(node)
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self._inherit_all_indice(input_node, node)
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def _assign_all_indice(self, node: Node, node_idx: int) -> None:
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"""
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Add new indice for all node's dims.
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Args:
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node (node)
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node_idx (int)
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"""
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shape = node.meta["tensor_meta"].shape
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if shape is None:
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return
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new_trace = []
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for _ in shape:
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new_trace.append(self._add_indice())
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self.indice_trace_list[node_idx]["indice"] = new_trace
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def _assign_transpose_indice(self, node: Node, node_idx: int) -> None:
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"""
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Assign indice for transpose op.
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1. swap input's dim according to transpose args
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2. inherit input's computation
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Args:
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node (node)
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node_idx (int)
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"""
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input_node = node.args[0]
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tranpose_dim = node.args[1:]
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self._assign_indice_as_input(node, node_idx, input_node)
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self._inherit_indice(input_node, tranpose_dim[1], node, tranpose_dim[0])
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self._inherit_indice(input_node, tranpose_dim[0], node, tranpose_dim[1])
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def _assign_permute_indice(self, node: Node, node_idx: int) -> None:
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"""
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Assign indice for permute op.
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1. swap input's dim according to permute args
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2. inherit input's computation
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Args:
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node (node)
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node_idx (int)
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"""
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permute_dim = flat_list(node.args[1:])
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input_node = node.args[0]
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self._assign_indice_as_input(node, node_idx, input_node)
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for idx, d in enumerate(permute_dim):
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self._inherit_indice(input_node, d, node, idx)
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def _assign_linear_indice(self, node: Node, node_idx: int) -> None:
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"""
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Assign indice for linear op.
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1. copy trace from input node and change last indice accroding to weight
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2. mark equal for input node last indice, weight first dim and bias dim.
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3. inherit input's computation, mark computation for last dim.
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Args:
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node (node)
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node_idx (int)
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"""
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if len(node.args) == 2:
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_, weight = node.args
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else:
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_, weight, _ = node.args
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self._assign_indice_as_input(node, node_idx)
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self._inherit_indice(weight, 1, node, -1)
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self._mark_computation(node, node_idx, [-1])
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def _assign_addmm_indice(self, node: Node, node_idx: int) -> None:
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"""
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Assign indice for addmm op.
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Args:
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node (node)
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node_idx (int)
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"""
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bias, input_node, weight = node.args
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self._assign_indice_as_input(node, node_idx, input_node)
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self._inherit_indice(weight, 1, node, -1)
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self._inherit_indice(bias, -1, node, -1)
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self._mark_computation(node, node_idx, [-1])
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def _assign_matmul_indice(self, node: Node, node_idx: int) -> None:
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"""
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Assign indice for matmul op.
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1. copy trace from matmul_left and change last indice accroding to matmul_right. (assert they have same length)
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2. mark equal for input matmul_left -1 indice and matmul_right -2 dim.
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3. inherit matmul_left and matmul_right computation, mark computation for last dim.
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Args:
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node (node)
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node_idx (int)
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"""
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matmul_left, matmul_right = node.args
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assert len(get_node_shape(matmul_left)) == len(get_node_shape(matmul_right))
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self._assign_indice_as_input(node, node_idx, matmul_left)
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self._inherit_indice(matmul_right, -1, node, -1)
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self._inherit_more_indice_from_node(matmul_right, node, [-1, -2])
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self._mark_computation(node, node_idx, [-1])
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def _assign_layernorm_indice(self, node, idx):
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"""
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Assign indice for layernorm op.
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1. assign indice as input node
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2. inherit computation and mark last 2 dims as computed.
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Args:
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node (node)
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node_idx (int)
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"""
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self._assign_indice_as_input(node, idx)
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self._mark_computation(node, idx, [-1])
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def _assign_elementwise_indice(self, node, idx):
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"""
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Assign indice for element-wise op (eg. relu sigmoid add mul).
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1. assign indice as input node
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2. inherit computation from all input nodes.
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Args:
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node (node)
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node_idx (int)
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"""
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self._assign_indice_as_input(node, idx)
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nodes_in = []
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for node_in in node.args:
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if type(node_in) == type(node):
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nodes_in.append(node_in)
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self._inherit_more_indice_from_node(node_in, node)
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def _assgin_no_change_indice(self, node, idx):
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self._assign_indice_as_input(node, idx)
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for node_in in node.args:
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if type(node_in) == type(node):
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self._inherit_more_indice_from_node(node_in, node)
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def _assign_einsum_indice(self, node, idx):
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"""
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Assign indice for einsum op.
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Args:
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node (node)
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node_idx (int)
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"""
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patterns = node.args[0]
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input_nodes = node.args[1:]
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patterns = patterns.replace(" ", "")
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left, right = patterns.split("->")
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left = left.split(",")
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if "..." in right:
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replace_list = "!@#$%^&*"
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target_len = len(get_node_shape(node))
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add_len = target_len - len(right) + 3
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replace_str = replace_list[:add_len]
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right = right.replace("...", replace_str)
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for ll in range(len(left)):
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left[ll] = left[ll].replace("...", replace_str)
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all_index = []
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for i in left:
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for c in i:
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all_index.append(c)
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all_index = set(all_index)
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for right_idx, right_indice in enumerate(right):
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for left_idx, left_str in enumerate(left):
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if right_indice in left_str:
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source_idx = left_str.index(right_indice)
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self._inherit_indice(input_nodes[left_idx], source_idx, node, right_idx)
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def _assign_softmax_indice(self, node, idx):
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"""
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Assign indice for softmax op.
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1. assign indice as input node
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2. inherit computation and mark softmax dim as computed.
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Args:
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node (node)
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node_idx (int)
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"""
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self._assign_indice_as_input(node, idx)
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self._mark_computation(node, idx, [node.kwargs["dim"]])
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def _assign_split_indice(self, node: Node, node_idx: int) -> None:
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"""
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Assign indice for split op.
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Args:
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node (node)
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node_idx (int)
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"""
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self._assign_indice_as_input(node, node_idx)
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dim_idx = node.kwargs["dim"]
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self._del_dim(node_idx, dim_idx)
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self._add_dim(node_idx, dim_idx)
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def _assign_unsqueeze_indice(self, node: Node, node_idx: int) -> None:
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"""
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Assign indice for unsqueeze op.
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1. assign new indice for unsqueeze dim
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Args:
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node (node)
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node_idx (int)
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"""
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self._del_dim(node_idx, -1)
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self._assign_indice_as_input(node, node_idx)
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dim_idx = node.args[1]
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# unsqueeze(-1) = unsqueeze(shape_num + 1)
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if dim_idx < 0:
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dim_idx = list(range(len(get_node_shape(node))))[dim_idx]
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self._add_dim(node_idx, dim_idx)
|
|
|
|
def _assign_ones_like_indice(self, node: Node, node_idx: int) -> None:
|
|
"""
|
|
Assign indice for oneslike op.
|
|
1. assign new indice for all dim
|
|
|
|
Args:
|
|
node (node)
|
|
node_idx (int)
|
|
"""
|
|
self._assign_all_indice(node, node_idx)
|
|
|
|
def _assign_cat_indice(self, node: Node, node_idx: int) -> None:
|
|
"""
|
|
Assign indice for cat op.
|
|
|
|
Args:
|
|
node (node)
|
|
node_idx (int)
|
|
"""
|
|
nodes_in = flat_list(node.args[0])
|
|
self._assign_indice_as_input(node, node_idx, input_node=nodes_in[0])
|
|
for n in nodes_in[1:]:
|
|
self._inherit_more_indice_from_node(n, node)
|
|
cat_dim = node.kwargs["dim"]
|
|
self._del_dim(node_idx, cat_dim)
|
|
self._add_dim(node_idx, cat_dim)
|
|
|
|
def _assign_sum_indice(self, node: Node, node_idx: int) -> None:
|
|
"""
|
|
Assign indice for sum op.
|
|
|
|
Args:
|
|
node (node)
|
|
node_idx (int)
|
|
"""
|
|
nodes_in = flat_list(node.args[0])
|
|
self._add_dim(node_idx, 0)
|
|
self._assign_indice_as_input(node, node_idx, input_node=nodes_in[0])
|
|
for n in nodes_in[1:]:
|
|
self._inherit_more_indice_from_node(n, node)
|
|
cat_dim = node.kwargs["dim"]
|
|
self._del_dim(node_idx, cat_dim)
|
|
|
|
def _assign_arange_indice(self, node: Node, node_idx: int) -> None:
|
|
"""
|
|
Assign indice for arange op.
|
|
|
|
Args:
|
|
node (node)
|
|
node_idx (int)
|
|
"""
|
|
self._assign_all_indice(node, node_idx)
|
|
|
|
def _assign_tensor_indice(self, node: Node, node_idx: int) -> None:
|
|
"""
|
|
Assign indice for tensor op.
|
|
|
|
Args:
|
|
node (node)
|
|
node_idx (int)
|
|
"""
|
|
if len(get_node_shape(node)) == 0:
|
|
return
|
|
else:
|
|
raise NotImplementedError()
|
|
|
|
def _assign_embedding_indice(self, node: Node, node_idx: int) -> None:
|
|
"""
|
|
Assign indice for embedding op.
|
|
|
|
Args:
|
|
node (node)
|
|
node_idx (int)
|
|
"""
|
|
self._del_dim(node_idx, -1)
|
|
self._assign_indice_as_input(node, node_idx)
|
|
self._add_dim(node_idx, -1)
|
|
|
|
def _assign_getitem_indice(self, node: Node, node_idx: int) -> None:
|
|
"""
|
|
Assign indice for getitem.
|
|
getitem can act like slice sometimes
|
|
|
|
Args:
|
|
node (node)
|
|
node_idx (int)
|
|
"""
|
|
node_args = flat_list(node.args[1:])
|
|
|
|
# deal with split
|
|
if get_node_name(node.args[0]) == "split":
|
|
self._assign_indice_as_input(node, node_idx)
|
|
self._del_dim(node_idx, node.args[0].kwargs["dim"])
|
|
self._add_dim(node_idx, node.args[0].kwargs["dim"])
|
|
return
|
|
|
|
# skip non tensor
|
|
if get_node_shape(node) is None:
|
|
return
|
|
|
|
# find if slice
|
|
flag = False
|
|
for node_arg in node_args:
|
|
node_arg_str = str(node_arg)
|
|
if any(i == node_arg_str for i in ["None", "Ellipsis"]):
|
|
flag = True
|
|
break
|
|
if "slice" in node_arg_str:
|
|
flag = True
|
|
break
|
|
if flag == False:
|
|
return
|
|
|
|
# node args should be like [Ellipsis, slice(start, step, end), None]
|
|
node_shape = get_node_shape(node)
|
|
origin_idx_count = 0
|
|
new_idx_count = 0
|
|
new_dim_num = sum([1 if str(i) == "None" else 0 for i in node_args])
|
|
for _ in range(new_dim_num):
|
|
self._del_dim(node_idx, 0)
|
|
delete_dim_num = sum([1 if str(i) == "0" else 0 for i in node_args])
|
|
for _ in range(delete_dim_num):
|
|
self._add_dim(node_idx, 0)
|
|
self._assign_indice_as_input(node, node_idx)
|
|
|
|
for _, node_arg in enumerate(node_args):
|
|
node_arg_str = str(node_arg)
|
|
# Ellipsis means [..., ]
|
|
if "Ellipsis" == node_arg_str:
|
|
shape_gap = len(node_shape) - len(node_args) + 1
|
|
origin_idx_count += shape_gap
|
|
new_idx_count += shape_gap
|
|
# slice(None, None, None) means all indexes
|
|
elif "slice" in node_arg_str:
|
|
if "slice(None, None, None)" != node_arg_str:
|
|
self._del_dim(node_idx, new_idx_count)
|
|
self._add_dim(node_idx, new_idx_count)
|
|
origin_idx_count += 1
|
|
new_idx_count += 1
|
|
# None means a new dim
|
|
elif "None" == node_arg_str:
|
|
self._add_dim(node_idx, new_idx_count)
|
|
new_idx_count += 1
|
|
elif "0" == node_arg_str:
|
|
self._del_dim(node_idx, new_idx_count)
|
|
origin_idx_count += 1
|
|
else:
|
|
raise NotImplementedError()
|
|
|
|
def _assign_view_reshape_indice(self, node: Node, node_idx: int) -> None:
|
|
"""
|
|
Assign indice for view and reshape op.
|
|
1. get origin shape and target shape by meta info.
|
|
2. compute the real value of -1 in target shape.
|
|
3. determine changed dim, and assgin indice for generated dim.
|
|
4. log changed dim and generated dim for restore
|
|
5. inherit computation.
|
|
6. look into view list to see whether the view is associated with other,
|
|
if so assgin equal dim according to previous view.
|
|
|
|
Args:
|
|
node (node)
|
|
node_idx (int)
|
|
"""
|
|
# get data, turn into number
|
|
origin_node = node.args[0]
|
|
origin_shape = origin_node.meta["tensor_meta"].shape
|
|
target_shape = []
|
|
unflated_args = flat_list(node.args)
|
|
for i in range(1, len(unflated_args)):
|
|
if isinstance(unflated_args[i], int):
|
|
target_shape.append(unflated_args[i])
|
|
else:
|
|
target_shape.extend(unflated_args[i].meta["fwd_out"])
|
|
|
|
# compute the value of -1
|
|
if -1 in target_shape:
|
|
origin_product = 1
|
|
for i in origin_shape:
|
|
origin_product *= i
|
|
target_product = -1
|
|
for i in target_shape:
|
|
target_product *= i
|
|
shape_idx = target_shape.index(-1)
|
|
target_shape[shape_idx] = origin_product // target_product
|
|
|
|
# determine changed dim
|
|
len_diff = len(origin_shape) - len(target_shape)
|
|
if len_diff == 1:
|
|
# dim merge
|
|
dim_equal = [i == j for i, j in zip(origin_shape[:-1], target_shape)]
|
|
dim_to = [dim_equal.index(False)]
|
|
dim_from = [dim_equal.index(False), dim_equal.index(False) + 1]
|
|
self._add_dim(node_idx, -1)
|
|
elif len_diff == -1:
|
|
# dim expand
|
|
dim_equal = [i == j for i, j in zip(origin_shape, target_shape[:-1])]
|
|
dim_from = [dim_equal.index(False)]
|
|
dim_to = [dim_equal.index(False), dim_equal.index(False) + 1]
|
|
self._del_dim(node_idx, -1)
|
|
elif len_diff == 0:
|
|
# dim equal
|
|
dim_equal = [i == j for i, j in zip(origin_shape, target_shape[:-1])]
|
|
dim_from = []
|
|
dim_to = []
|
|
else:
|
|
raise NotImplementedError("shape" + str(origin_shape) + "and" + str(target_shape) + "view not implemented")
|
|
|
|
# get new indice
|
|
origin_trace = self._find_indice_trace_from_node(origin_node)
|
|
self._assign_indice_as_input(node, node_idx, origin_node)
|
|
idx_from = [origin_trace[i] for i in dim_from]
|
|
dim_from.reverse()
|
|
for i in dim_from:
|
|
self._del_dim(node_idx, i)
|
|
for i in dim_to:
|
|
self._add_dim(node_idx, i)
|
|
dim_from.reverse()
|
|
|
|
# search view list
|
|
for view_node, view_dict in self.indice_view_list.items():
|
|
if (view_dict["idx_to"] == idx_from and view_dict["dim_to"] == dim_from
|
|
and view_dict["dim_from"] == dim_to):
|
|
# inheirt indice from current node
|
|
if len_diff == 1:
|
|
if origin_shape[dim_from[0]] == 1:
|
|
self._inherit_indice(origin_node, dim_from[1], node, dim_to[0], init=False)
|
|
elif origin_shape[dim_from[1]] == 1:
|
|
self._inherit_indice(origin_node, dim_from[0], node, dim_to[0], init=False)
|
|
elif len_diff == -1:
|
|
if target_shape[dim_to[0]] == 1:
|
|
self._inherit_indice(origin_node, dim_from[0], node, dim_to[1], init=False)
|
|
elif target_shape[dim_to[1]] == 1:
|
|
self._inherit_indice(origin_node, dim_from[0], node, dim_to[0], init=False)
|
|
# inherid indice from input node of last view
|
|
for dim_to_i in dim_to:
|
|
self._inherit_indice(view_node.args[0], dim_to_i, node, dim_to_i, init=False)
|
|
|
|
# log view, not used now
|
|
view_dict = {
|
|
"idx_from": [origin_trace[i] for i in dim_from],
|
|
"dim_from": dim_from,
|
|
"idx_to": [self.indice_trace_list[node_idx]["indice"][i] for i in dim_to],
|
|
"dim_to": dim_to,
|
|
}
|
|
self.indice_view_list[node] = view_dict
|
|
|
|
def _clear_trace(self, node_idx: int) -> None:
|
|
"""
|
|
clear too far trace to speed up computation
|
|
"""
|
|
trace_range = None
|
|
for i in range(len(self.trace_range)):
|
|
if self.trace_range[i][1] == node_idx:
|
|
trace_range = (self.trace_range[i][0], self.trace_range[i][1])
|
|
break
|
|
if self.trace_range[i][1] > node_idx:
|
|
break
|
|
if trace_range is None:
|
|
return
|
|
|
|
active_nodes = self.active_node_list[trace_range[0]:trace_range[1] + 1]
|
|
active_nodes = set(flat_list(active_nodes))
|
|
active_nodes = [self.node_mgr.find_node_idx_by_name(i) for i in active_nodes]
|
|
for i in range(trace_range[0], trace_range[1] + 1):
|
|
trace = self.indice_trace_list[i]
|
|
# clear compute
|
|
for dim_compute in trace["compute"]:
|
|
for i in range(len(dim_compute) - 1, -1, -1):
|
|
if (dim_compute[i] < trace_range[0] and dim_compute[i] not in active_nodes):
|
|
dim_compute.pop(i)
|
|
continue
|
|
# clear source
|
|
for dim_source in trace["source"]:
|
|
for k in list(dim_source.keys()):
|
|
if k < trace_range[0] and k not in active_nodes:
|
|
dim_source.pop(k)
|
|
|
|
def trace_indice(self) -> None:
|
|
for idx, node in enumerate(self.node_mgr.get_node_list()):
|
|
node_name = get_node_name(node)
|
|
if node.op == "placeholder":
|
|
self._assign_all_indice(node, idx)
|
|
elif node.op == "call_method":
|
|
if "transpose" == node_name:
|
|
self._assign_transpose_indice(node, idx)
|
|
elif "permute" == node_name:
|
|
self._assign_permute_indice(node, idx)
|
|
elif "view" == node_name or "reshape" == node_name:
|
|
self._assign_view_reshape_indice(node, idx)
|
|
elif "unsqueeze" == node_name:
|
|
self._assign_unsqueeze_indice(node, idx)
|
|
elif "split" == node_name:
|
|
self._assign_split_indice(node, idx)
|
|
elif any(i == node_name for i in ["to", "contiguous", "clone", "type"]):
|
|
self._assgin_no_change_indice(node, idx)
|
|
elif "new_ones" == node_name:
|
|
self._assign_ones_like_indice(node, idx)
|
|
elif any(i == node_name for i in ["size"]):
|
|
continue
|
|
else:
|
|
raise NotImplementedError(node_name, "method not implemented yet!")
|
|
elif node.op == "call_function":
|
|
if "linear" == node_name:
|
|
self._assign_linear_indice(node, idx)
|
|
elif "cat" == node_name:
|
|
self._assign_cat_indice(node, idx)
|
|
elif "matmul" == node_name:
|
|
self._assign_matmul_indice(node, idx)
|
|
elif "softmax" == node_name:
|
|
self._assign_softmax_indice(node, idx)
|
|
elif any(n == node_name for n in [
|
|
"mul",
|
|
"add",
|
|
"sigmoid",
|
|
"relu",
|
|
"sub",
|
|
"truediv",
|
|
"pow",
|
|
"dropout",
|
|
"where",
|
|
"tanh",
|
|
]):
|
|
self._assign_elementwise_indice(node, idx)
|
|
elif "ones_like" == node_name:
|
|
self._assign_ones_like_indice(node, idx)
|
|
elif "einsum" == node_name:
|
|
self._assign_einsum_indice(node, idx)
|
|
elif "sum" == node_name:
|
|
self._assign_sum_indice(node, idx)
|
|
elif "layer_norm" == node_name:
|
|
self._assign_layernorm_indice(node, idx)
|
|
elif "getitem" == node_name:
|
|
self._assign_getitem_indice(node, idx)
|
|
elif "addmm" == node_name:
|
|
self._assign_addmm_indice(node, idx)
|
|
elif "arange" == node_name:
|
|
self._assign_arange_indice(node, idx)
|
|
elif "tensor" == node_name:
|
|
self._assign_arange_indice(node, idx)
|
|
elif any(i == node_name for i in ["getattr", "eq", "_assert_is_none", "_assert", "finfo"]):
|
|
continue
|
|
else:
|
|
raise NotImplementedError(node_name, "function not implemented yet!")
|
|
elif node.op == "call_module":
|
|
node_name = get_module_node_name(node)
|
|
if "layernorm" == node_name:
|
|
self._assign_layernorm_indice(node, idx)
|
|
elif "embedding" == node_name:
|
|
self._assign_embedding_indice(node, idx)
|
|
elif any(n == node_name for n in ["sigmoid", "dropout", "relu"]):
|
|
self._assign_elementwise_indice(node, idx)
|
|
else:
|
|
raise NotImplementedError(node_name, "module not implemented yet!")
|
|
elif node.op == "get_attr":
|
|
self._assign_all_indice(node, idx) # get param
|
|
elif node.op == "output":
|
|
continue
|
|
else:
|
|
raise NotImplementedError(node.op, "op not implemented yet!")
|
|
|
|
# limit trace range
|
|
self._clear_trace(idx)
|